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Software Defined Networking

Software Defined Networking. SDN Controller Building and Programming Yotam Harchol December 2013. Outline. Floodlight SDN controller Indigo OpenFlow Switch Problems in controller development Real-life SDN applications. Please ask questions during my talk. About Me.

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Software Defined Networking

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  1. Software Defined Networking SDN Controller Building and Programming Yotam Harchol December 2013

  2. Outline • Floodlight SDN controller • Indigo OpenFlow Switch • Problems in controller development • Real-life SDN applications Please ask questions during my talk

  3. About Me • Ph.D. student at the Hebrew University • Advisers: • Prof. AnatBremler-Barr (IDC) • Dr. David Hay (HUJI) • Research areas: networking, middlebox performance, SDN, network security • Spent last summer at Big Switch Networks

  4. Floodlight General Architecture

  5. System Architecture Source: projectfloodlight.org

  6. Controller Architecture Source: projectfloodlight.org

  7. Indigo Open source OpenFlow switch For software and hardware implementations

  8. Indigo Architecture IVS Indigo Virtual Switch SwitchLight Open source physical switch Source: projectfloodlight.org

  9. Problems Problems in controller (and switch) development

  10. Testing and Verification • Unit tests – every class has its own unit test. All tests are executed before code is merged into main branch • External tests – these tests are more comprehensive and use mininet and physical switches to test that functionality is maintained (runs after merge and rebuild) • QA

  11. Vendor Extensions • OpenFlow is not enough • Extensions should be supported by the data plane • Data plane is manufactured separately • Possible solution: extend both controller and switch software

  12. Protocol Evolvement • The OpenFlow protocol evolves quickly and has dramatic changes between some of the versions (e.g. 1.0 and 1.2, 1.3) • This requires adaptations in controller, applications, and the switches (virtual or physical) • Backward compatibility is a major concern as well (e.g. new controller, old switches…)

  13. LoxiGen • LoxiGen is a tool that generates OpenFlow protocol libraries for a number of languages • Frontend parses wire protocol descriptions (Currently, for versions 1.0, 1.1, 1.2, 1.3.1) • Backend for each supported language (currently C, Python, and Java, with an auto-generated wireshark dissector in Lua on the way) • Results with code for floodlight controller libraries, indigo switch libraries • Written in python, open-source

  14. LoxiGen Source: github.com/floodlight/loxigen

  15. Applications (“Northbound”) API • Currently –Thin API, mainly exposes OpenFlow protocol directly and event handler registration for OpenFlow events • Future –Rich API with: • Sophisticated flow table management and caching • Virtualization and encapsulation of underlying network • More… (on next slides)

  16. Multiple Applications • Simple example: • 2 applications • First application sets:(IP_DST = 192.168.1.* -> forward to port 3) • Second application sets:(TCP_DST = 80 -> forward to port 4) • What will happen with a TCP packet to IP 192.168.1.1 port 80? • Is expansion of all possible combinations a valid solution? • Add higher priority rule: (IP_DST=192.168.1.*, TCP_DST=80 -> forward to ports 3,4) • Exponential growth in number of rules • What if rules contradict? • Third application: (TCP_DST=80 -> drop)

  17. Fault Tolerance • Application fault: • Wrong logic • Malicious logic • Misconfiguration (e.g. creating loops) • Controller fault • Switch fault • If switch went down or rebooted and “forgot” its flow table – who is responsible? • No good answers as of today…

  18. Caching (can be viewed as part of "fault tolerance") • Prevent redundant flow_mod messages from applications to the switches • Allow recovery for applications and switches • Cache results of queries to the switches • Relates also to high availability issues, replication, etc.

  19. Transactional Models • Allow rollback of previousoperations of the same transaction in case of failure • Controller-Switch channel • Application-Controller-Switch path Source: projectfloodlight.org

  20. Interesting SDN Architectures and Applications What's going on out there?

  21. Overlay Networks • Aim: inside a data center, have the flexibility of SDN for hosted VMs • Easily create tunnels • Control endpoint routing • Services: NAT, filtering, ACL, etc. • Problem: hypervisor machines are connected on a non-SDN network • Would not like to replace the network equipment of the whole data center • Might not fully trust the new SDN technology • Solution: virtualize the network as well!

  22. Overlay Networks • Overlay SDN: • Put a virtual (software) switch as the gateway of each hypervisor • Central control manages all virtual switches • Virtual switches are connected through the legacy fabric From TeemuKoponen(Nicira/VMWare)

  23. Monitoring Networks • Monitoring is a big deal for network operators • So far: tapped selected points in network and sent data to adjacent monitoring devices • Requires lots of monitoring devices • Each tapping and monitoring point is managed separately • Multiple moderators must cooperate in order to use the same equipment together

  24. Monitoring Networks Source: bigswitch.com Big Switch Networks – Big Tap

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